XIII. Yeast sequencing reports. Cloning and sequencing of the NES24 gene of Saccharomyces cerevisiae

We have cloned NES24 using a temperature-sensitive nes24-1 mutant as a host and sequenced a 3162 bp XhoI-EcoRI DNA fragment containing the NES24 gene. Computer analysis revealed that this segment contains a 1806 bp open reading frame which is needed for complementation of the nes24-1 mutation. We found SUP8 in the region upstream of the NES24 gene, placing the NES24 gene on chromosome XIII. A protein homology search indicated that NES24 encodes a new protein. The disruption of the NES24 gene resulted in temperature-sensitive growth. The sequence has been deposited in DDBJ/EmBL/GenBank data bases under Accession Number D15052.     

Yeast sequencing reports. APL1, a yeast gene encoding a putative permease for basic amino acids

A Saccharomyces cerevisiae gene (1722 bp), encoding a protein (574 aa) highly homologous to the basic-amino-acid permeases LYP1 and CAN1, was sequenced. The gene, which was named APL1 (Amino-acid Permase Like), is located 881 bp upstream from LYP1 (lysine-specific permease), and in head-to-head orientation to it. These sequence data have been deposited in the EMBL/GenBank/DDBJ nucleotide sequence data libraries under Accession Number X74069.     

II. Yeast sequencing reports. The nucleotide sequence of TTP1, a gene encoding a predicted type II membrane protein

The DNA sequence of a 2967 bp fragment located near the centromere of chromosome II, between the CEN2 and FUR4 genes, was determined. The segment contains a new open reading frame of 1794 bp. The product encoded by the gene, designated TTP1, is a predicted type II membrane protein of 597 amino acid residues with a short cytoplasmic NH₂-terminus, a membrane-spanning region and a large COOH-terminal region containing three potential N-glycosylation sites. Gene disruption indicated that TTP1 is not essential for cell growth. The sequence has been deposited in the GenBank data library under Accession Number U05211.     

Identification of a gene encoding a homocitrate synthase isoenzyme of Saccharomyces cerevisiae

In Saccharomyces cerevisiae, most of the LYS structural genes have been identified except the genes encoding homocitrate synthase and α-aminoadipate aminotransferase. Expression of several LYS genes responds to an induction mechanism mediated by the product of LYS14 and an intermediate of the pathway, α-aminoadipate semialdehyde (αAASA) as an inducer. This activation is modulated by the presence of lysine in the growth medium leading to an apparent repression. Since the first enzyme of the pathway, homocitrate synthase, is feedback inhibited by lysine, it could be a major element in the control of αAASA supply. During the sequencing of chromosome IV of S. cerevisiae, the sequence of ORF D1298 showing a significant similarity with the nifV gene of Azotobacter vinelandii was reported. Disruption and overexpression of ORF D1298 demonstrate that this gene, named LYS20, encodes a homocitrate synthase. The disrupted segregants are able to grow on minimal medium and exhibit reduced but significant homocitrate synthase indicating that this activity is catalysed by at least two isoenzymes. We have also shown that the product of LYS20 is responsible for the greater part of the lysine production. The different isoforms are sensitive to inhibition by lysine but only the expression of LYS20 is strongly repressed by lysine. The N-terminal end of homocitrate synthase isoform coded by LYS20 contains no typical mitochondrial targeting sequence, suggesting that this enzyme is not located in the mitochondria.     

III. Yeast sequencing reports. Corrected sequence for the right telomere of Saccharomyces cerevisiae chromosome III

A comparison of the sequences of telomere regions from several yeast chromosomes revealed an apparent cloning artifact for the right end of chromosome III. An integrating vector containing G_1–3T telomere sequences was used to clone the right end of chromosome III from a strain related to S288C. The sequence of this clone confirmed that the published sequence was incorrect and demonstrated that the right telomere region of chromosome III is similar to other telomeres.     

IX. Yeast sequencing reports. Cloning and sequence of REV7, a gene whose function is required for DNA damage-induced mutagenesis in Saccharomyces cerevisiae

The function of the REV7 gene is required for DNA damage-induced mutagenesis in budding yeast, Saccharomyces cerevisiae, and is therefore thought to promote replication past sites of mutagen damage in the DNA template. We have cloned this gene by complementation of the rev7-2 mutant defect, and determined its sequence. REV7 encodes a predicted protein of M_r 28 759 which is unlike any other protein in the NCBI non-redundant protein sequence data base, and which is inessential for viability. The sequence of the 3·88 kb yeast genomic fragment containing REV7 has been deposited in Genbank accession number U07228.     

V. Yeast mapping reports. The MAG1 3-methladenine DNA glycosylase gene is closely linked to the SPT15 TATA-binding TFIID gene on chromosome V-R in Saccharomyces cerevisiae

The MAG1 gene encodes a 3-methyladenine DNA glycosylase, which is involved in DNA alkylation repair in Saccharomyces cerevisiae. The mag1 mutant is deficient in 3-methyladenine DNA glycosylase activity and shows enhanced sensitivity to several monofunctional alkylating agents. MAG1 is allelic to MMS5. This gene has been previously located on chromosome V by chromosomal hybridization. We present physical and genetic mapping data here showing that the MAG1 gene is located on chromosome V-R, proximal to and about 10 kilobase pairs away from the SPT15 gene coding for the yeast TATA-binding protein TFIID.     

XV. Yeast sequencing reports. Isolation and DNA sequence of the STE13 gene encoding dipeptidyl aminopeptidase

We have isolated a mutant which exhibits partial constitutivity for a -specific gene expression in α cells. The wild-type gene was cloned and demonstrated to be allelic to the STE13 gene, which encodes the dipeptidyl aminopeptidase involved in processing of the α-factor prepropheromone. Thus, the mating defect of the ste13 mutations in α cells may result both from the production of incompletely processed α-factor and from the increased expression of a -specific genes. The STE13 open reading frame of 931 amino acids contains a putative membrane-spanning segment near its amino terminus and is 31% identical to a second yeast dipeptidyl aminopeptidase (DAP2). A null mutant of STE13 has been constructed: it is viable and sporulation-proficient. The sequence has been deposited in the GenBank data library under Accession Number L21944.     

IV. Yeast sequencing reports. GUF1, a gene encoding a novel evolutionarily conserved gtpase in budding yeast

While sequencing a region of chromosome IV adjacent to the checkpoint gene MEC3, we identified a gene we call GUF1 (G TPase of U nknown F unction), which predicts a 586 amino acid GTPase of the elongation factor-type class. The predicted Guf1p protein bears striking sequence similarity to both LepA from Escherichia coli (43% identical) and LK1236·1 from Caenorhabditis elegans (42% identical). Analysis of both a guf1δ deletion and a putative constitutive-activating mutant (GUF1HG) revealed that GUF1 is not essential nor did mutant cells reveal any marked phenotype. The GenBank Accession Number for the GUF1 sequence is U22360.     

II. Yeast sequencing reports. A putative P-type Cu2+-transporting ATPase gene on chromosome II of Saccharomyces cerevisiae

We have sequenced a gene on the right arm near the telomere of chromosome II of Saccharomyces cerevisiae which codes for a putative P-type cation-transporting ATPase (PCA1). The gene codes for a 1216 amino acids protein. The PCA1 gene expresses a 3·5 kb message in both haploid and diploid cells when grown in glucose-based rich medium YPD. The gene product is most similar at the C-terminal region to a human copper-transporting ATPase and Enterococcus hirae copper-transporting ATPases and also an N-terminal dithiol region that was proposed to be a ‘metal-binding motif’. Cells lacking PCA1 display no obvious phenotype when tested under standard conditions; whereas they cease growth much earlier than the isogenic wild-type cells in a minimal medium with high copper concentration. Overexpression of PCA1 under GAL1/10 promoter in yeast cells causes poor growth. We also show that yeast strains carrying PCA1 in multiple copies grow slower than isogenic wild-type strains in a minimal synthetic medium containing 0·3 mM-CuSO₄. The sequence has been deposited in the EMBL data library under Accession Number Z29332.     

Yeast sequencing reports. Sequence of the AFG3 gene encoding a new member of the FtsH/Yme1/Tma subfamily of the AAA-protein family

A nuclear gene from Saccharomyces cerevisiae was cloned by genetic complementation of a temperature-sensitive respiratory-deficient mutant. DNA sequence analysis reveals that it encodes a protein with homology to Yme1, FtsH and Tma, proteins which belong to the AAA-protein family (ÃPases associated with diverse cellular activities). The members of this family are involved in very different biological processes. Yme1p, a yeast mitochondrial protein, affects the rate of DNA escape from mitochondria to the nucleus and the Escherichia coli FtsH protein is apparently involved in the post-translational processing of PBP3, a protein necessary for septation during cell division. This newly sequenced gene, which we have designated AFG3 for ÃPase family gene 3, encodes a putative mitochondrial protein of 760 amino acid residues that is closely related to FtsH, Tma (protein from Lactococcus lactis) and Yme1p with 58, 55 and 46% identity respectively. The sequence has been deposited in the EMBL data library under Accession Number X76643.     

IV. Yeast sequencing reports. A Saccharomyces cerevisiae gene encoding a potential adenine phosphoribosyltransferase

The nucleotide sequence of a Saccharomyces cerevisiae gene encoding a potential adenine phosphoribosyltransferase (APRT) has been determined. The protein encoded by this gene shows a high degree of similarity with APRTs from a variety of other species. The S. cerevisiae gene, named APT2, has been mapped to chromosome IV. The sequence has been deposited in the GenBank data library under Accession Number L14434.     

XV. Yeast sequencing reports. A gene from Saccharomyces cerevisiae which codes for a protein with significant homology to the bacterial 3-phosphoserine aminotransferase

During the sequencing of the gene GSP2 from Saccharomyces cerevisiae, we have encountered an adjacent open reading frame having strong homology to the 3-phosphoserine aminotransferase (E.C.2.6.1.52) from other organisms. In this report, we present the sequence for this yeast SERC, and evidence that its deletion from the yeast genome leads to serine dependency. The sequence has been deposited in the GenBank data library under Accession Number L20917.     

Cloning and genetic analysis of the gene encoding a new protein kinase in Saccharomyces cerevisiae

We have isolated a single gene from the yeast Saccharomyces cerevisiae encoding a potential 800 amino acid polypeptide of calculated M_r 90 098 Da. This protein consists of an N-terminal region that shares significant homology with the catalytic domains of several serine- and threonine-specific protein kinases, as well as a large, unique, C-terminal domain of unknown function. Haploid disruption mutants are viable and do not exhibit any readily observable growth defects under varying conditions of temperature, nutrients or osmotic strength. Due to the apparent structural similarity between this kinase and the protein products of the KIN1 and KIN2 genes, we have chosen to name this new gene KIN3.     

Para-aminobenzoate synthase gene of Saccharomyces cerevisiae encodes a bifunctional enzyme

The Saccharomyces cerevisiae gene for para-aminobenzoate (PABA) synthase has been identified based upon its ability to confer sulfonamide resistance when present on a multicopy episomal vector. The 3840 bp DNA sequence fragment reported here contains a 2199 bp open reading frame encoding a 733 amino acid protein with similarity to the two components of PABA synthase described for prokaryotes (Escherichia coli PabA and PabB), suggesting that PABA synthase is bifunctional in yeast. The cloned sequence was confirmed to be PABA synthase by gene disruption. Chromosome gel analysis places the gene for PABA synthase on chromosome XIV.     

XIV. Yeast sequencing reports. Sequence of MKT1, needed for propagation of M2 satellite dsRNA of the L-A virus of Saccharomyces cerevisiae

MKT1 is required for m aintenance of K₂ above 30°C in strains with the L-A-HN variant of the L-A double-stranded RNA virus of Saccharomyces cerevisiae. We report that MKT1 encodes a 92 979 Da protein with serine-rich regions and the retroviral protease signature, DTG, but with no substantial homology to proteins presently in the databases. This sequence is available from GenBank under Accession Number U09129.     

II. Yeast sequencing reports. Sequence analysis of a 31 kb DNA fragment from the right arm of Saccharomyces cerevisiae chromosome II

The nucleotide sequence of a 31 352 bp fragment from chromosome II of Saccharomyces cerevisiae has been determined and analysed. The fragment originates from the right arm of chromosome II, located between the GAL7,10,1 and the PHO3,5 loci, at a distance of about 130 kb from the centromere. The sequence contains a tRNA tandem repeat and 17 open reading frames (ORFs) larger than 100 amino acids. One of them extends into adjacent DNA and is incomplete. The two tRNA genes, coding for a tRNA^asp and a tRNA^arg, and three of the ORFs, had been sequenced previously, i.e. HSP26, SEC18, and UBC4. Four other ORFs showed similarity with yeast genes; amino acid transporter genes, the RAD54, SNF2 and STH1 family, the SPS2 gene and the bromodomain of SPT7, respectively. Two showed homology with sequences from other organisms, i.e. with a Plasmodium falciparum gene encoding a surface antigen and with a gene from Saimirine herpes virus respectively. Three ORFs, YBR0726, YBR0735 and YBR0740 are completely contained in YBR0727, YBR0734 and YBR0739 respectively, and thus probably do not represent real genes. Two ORFs, YBR0727 and YBR0745 most likely contain an intron. The sequences have been deposited in the EMBL data library under Accession Number X76294.     

II. Yeast sequencing reports. Sequence analysis of a 78·6 kb segment of the left end of Saccharomyces cerevisiae chromosome II

We report the sequence analysis of a 78,601 bp DNA segment on the left arm of chromosome II of Saccharomyces cerevisiae. This 78·6 kb segment spans the region from the start of a subtelomeric Y′ element up to the ILS1 gene. It contains 49 open reading frames (ORFs) with more than 100 amino acids length including 14 internal and five overlapping ORFs. The gene density, excluding the internal ORFs, was calculated as one ORF per 2·2 kb. Eight ORFs (PKC1, TyA, TyB, ATP1, ROX3, RPL17a, PET112 and ILS1) correspond to previously characterized genes. ORF YBL0718 was identified as CDC27; YBL0706 as TEL1. Four other ORFs show strong similarities to already known genes. The gene product of YBL0838 is 60% identical to the ribosomal protein RPL32 from rat, mouse and man. YBL0701 encodes a protein with significant similarity to the initiation factor eIF2 associated p67 glycoprotein from rat. Eight ORFs were disrupted and the resulting yeast strains analysed with respect to their phenotype. The sequence has been deposited in the EMBL Nucleotide Sequence Database under the Accession Number X79489.